Portable gas fractionalization system

Abstract

A portable gas fractionalization apparatus that provides oxygen rich air to patients is provided. The apparatus is compact, lightweight, and low-noise. The components are assembled in a housing that is divided into two compartments. One compartment is maintained at a lower temperature than the other compartment. The lower temperature compartment is configured for mounting components that can be damaged by heat. The higher temperature compartment is configured for mounting heat generating components. An air stream is directed to flow from an ambient air inlet to an air outlet constantly so that there is always a fresh source of cooling air. The apparatus utilizes a PSA unit to produce an oxygen enriched product. The PSA unit incorporates a novel single ended column design in which all flow paths and valves can be co-located on a single integrated manifold. The apparatus also can be used in conjunction with a satellite conserver and a mobility cart.

Description

RELATED APPLICATIONS [0001] This application is a continuation-in-part of U.S. patent application Ser. Nos. 10 / 680,997, 10 / 681,456, 10 / 680,885, and 10 / 681,487 all filed Oct. 7, 2003, which are hereby incorporated by reference in their entireties.BACKGROUND OF THE INVENTION [0002] 1. Field of the Invention [0003] This invention relates generally to a portable gas fractionalization system, more particularly, to a compact oxygen concentrator that is suitable for both in-home and ambulatory use so as to provide users greater ease of mobility. [0004] 2. Description of the Related Art [0005] Patients who suffer from respiratory ailments such as Chronic Obstructive Pulmonary Diseases (COPD) often require prescribed doses of supplemental oxygen to increase the oxygen level in their blood. Supplemental oxygen is commonly supplied to the patients in metal cylinders containing compressed oxygen gas or liquid oxygen. Each cylinder contains only a finite amount of oxygen that typically lasts onl...

AI Technical Summary

Benefits of technology

[0008] In one aspect, the preferred embodiments of the present invention provide a portable gas fractionalization apparatus comprising a PSA unit having plural adsorbent beds which produce oxygen having a purity of at least 87%; a compressor connected to supply compressed air to the PSA unit; and a blower which produces an air stream across the compressor. The PSA unit comprises valves operating in accordance with a PSA cycle that includes a pressure equalization step so as to provide greater than about 31% recovery of oxygen from air. Preferably, the valves of the PSA unit are disposed upstream of the air stream across the compressor such that thermal load on the PSA valves is reduced. Preferably, the compressor is a non-reciprocating compressor so as to reduce compressor noise, wherein the compressor is configured to draw ambient air at a flow rate of no more than about 15 slpm.

Problems solved by technology

Thus, patients usually cannot leave home for any length of time unless they carry with them additional cylinders, which can be heavy and cumbersome.

Patients who wish to travel often have to make arrangements with medical equipment providers to arrange for an exchange of cylinders at their destination or along the route, the inconvenience of which discourages many from taking extended trips away from home.

While oxygen concentrators are effective at continual production of oxygen, they are typically large electrically powered, stationary units that generate high levels of noise, in the range of 50-55 db, which presents a constant source of noise pollution.

Moreover, the units are too heavy to be easily transported for ambulatory use as they typically weigh between 35 to 55 lbs.

Patients who use oxygen concentrators are thus tethered to the stationary machines and inhibited in their ability to lead an active life.

While portable oxygen concentrators have been developed to provide patients with greater mobility, the currently commercially available portable concentrators do not necessarily provide patients with the ease of mobility that they desire.

The portable concentrators tend to generate as much noise as the stationary units and thus cannot be used at places such as the theater or library where such noise is prohibited.

Moreover, the present portable concentrators have very short battery life, typically less than one hour, and thus cannot be used continuously for any length of time without an external power source.

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